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To: Users
From: Bob Supnik
Subj: HP2100 Simulator Usage
Date: 15-Nov-2002
COPYRIGHT NOTICE
The following copyright notice applies to both the SIMH source and binary:
Original code published in 1993-2002, written by Robert M Supnik
Copyright (c) 1993-2002, Robert M Supnik
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the "Software"),
to deal in the Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
ROBERT M SUPNIK BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
Except as contained in this notice, the name of Robert M Supnik shall not
be used in advertising or otherwise to promote the sale, use or other dealings
in this Software without prior written authorization from Robert M Supnik.
This memorandum documents the HP 2100 simulator.
1. Simulator Files
sim/ sim_defs.h
sim_rev.h
sim_sock.h
sim_tmxr.h
scp.c
scp_tty.c
sim_sock.c
sim_tmxr.c
sim/hp2100/ hp2100_defs.h
hp2100_cpu.c
hp2100_fp.c
hp2100_dp.c
hp2100_dq.c
hp2100_dr.c
hp2100_ipl.c
hp2100_lps.c
hp2100_lpt.c
hp2100_mt.c
hp2100_ms.c
hp2100_mux.c
hp2100_stddev.c
hp2100_sys.c
2. HP2100 Features
The HP2100 simulator is configured as follows:
device simulates
name(s)
CPU 2116 CPU with 32KW memory
2100 CPU with 32KW memory, FP or IOP instructions
21MX CPU with 1024KW memory, FP or DMS instructions
DMA0, DMA1 dual channel DMA controller
PTR,PTP 12597A paper tape reader/punch
TTY 12631C buffered terminal controller
LPS 12653A printer controller with 2767 printer
12566B microcircuit interface for diagnostics
LPT 12845A printer controller with 2607 printer
CLK 12539A/B/C time base generator
MUXL,MUXU,MUXC 12920A terminal multiplexor
DP 12557A disk controller with four 2871 drives
13210A disk controller with four 7900 drives
DQ 12565A disk controller with two 2883 drives
DR 12606B fixed head disk controller with 2770/2771 disks
12610B drum controller with 2773/2774/2775 drums
MT 12559C magnetic tape controller with one 3030 drive
MS 13181A magnetic tape controller with four 7970B drives
13183A magnetic tape controller with four 7970E drives
IPLI 12556B interprocessor link, input side
IPLO 12556B interprocessor link, output side
The HP2100 simulator implements several unique stop conditions:
- decode of an undefined instruction, and STOP_INST is et
- reference to an undefined I/O device, and STOP_DEV is set
- more than INDMAX indirect references are detected during
memory reference address decoding
The HP2100 loader supports standard absolute binary format. The DUMP
command is not implemented.
2.1 CPU
CPU options include choice of instruction set and memory size.
SET CPU 2116 2116 CPU
SET CPU 2100 2100 CPU
SET CPU 21MX 21MX CPU
SET CPU EAU EAU instructions (2116 only)
SET CPU NOEAU no EAU instructions (2116 only)
SET CPU FP FP instructions (2100 only)
SET CPU NOFP no FP instructions (2100 only)
SET CPU IOP IOP instructions (2100, 21MX only)
SET CPU NOIOP no IOP instructions (2100, 21MX only)
SET CPU DMS DMS instructions (21MX only)
SET CPU NODMS no DMS instructions (21MX only)
SET CPU 4K set memory size = 4K
SET CPU 8K set memory size = 8K
SET CPU 16K set memory size = 16K
SET CPU 32K set memory size = 32K
SET CPU 64K set memory size = 64K (21MX only)
SET CPU 128K set memory size = 128K (21MX only)
SET CPU 256K set memory size = 256K (21MX only)
SET CPU 512K set memory size = 512K (21MX only)
SET CPU 1024K set memory size = 1024K (21MX only)
On the 2100, EAU is standard, and the FP and IOP options are mutually
exclusive. On the 21MX, EAU and FP are standard. The 2100 and 21MX
include memory protection as standard; the 21MX optionally includes
DMS (dynamic memory system).
If memory size is being reduced, and the memory being truncated contains
non-zero data, the simulator asks for confirmation. Data in the truncated
portion of memory is lost. Initial memory size is 32K.
These switches are recognized when examining or depositing in CPU memory:
-v if DMS enabled, interpret address as virtual
-s if DMS enabled, force system map
-u if DMS enabled, force user map
-p if DMS enabled, force port A map
-q if DMS enabled, force port B map
CPU registers include the visible state of the processor as well as the
control registers for the interrupt system.
name models size comments
P all 15 program counter
A all 16 A register
B all 16 B register
X 21MX 16 X index register
Y 21MX 16 Y index register
S all 16 switch/display register
F 2100,21MX 15 memory protection fence
E all 1 extend flag
O all 1 overflow flag
ION all 1 interrupt enable flag
ION_DEFER all 1 interrupt defer flag
IADDR all 6 most recent interrupting device
MPCTL 2100,21MX 1 memory protection enable
MPFLG 2100,21MX 1 memory protection flag
MPFBF 2100,21MX 1 memory protection flag buffer
MPVR 2100,21MX 16 memory protection violation reg
MPEVR 2100,21MX 1 memory protection freeze flag
MPMEV 2100,21MX 1 memory protection DMS error flag
DMSENB 21MX 1 DMS enable
DMSCUR 21MX 1 DMS current mode
DMSSR 21MX 16 DMS status register
DMSVR 21MX 16 DMS violation register
DMSMAP[4][32] 21MX 20 DMS maps
STOP_INST all 1 stop on undefined instruction
STOP_DEV all 1 stop on undefined device
INDMAX all 16 indirect address limit
PCQ[0:63] all 15 P of last JMP, JSB, or interrupt;
most recent P change first
WRU all 8 interrupt character
2.2 DMA Controllers
The HP2100 includes two DMA channel controllers (DMA0 and DMA1). Each
DMA channel has the following visible state:
name size comments
CMD 1 channel enabled
CTL 1 interrupt enabled
FLG 1 channel ready
FBF 1 channel ready buffer
CW1 16 command word 1
CW2 16 command word 2
CW3 16 command word 3
2.3 Variable Device Assignments
On the HP2100, I/O device take their device numbers from the backplane
slot they are plugged into. Thus, device number assignments vary
considerably from system to system, and software package to software
package. The HP2100 simulator supports dynamic device number assignment.
To show the current device number, use the SHOW <dev> DEVNO command:
sim> SHOW PTR DEV
device=10
To change the device number, use the SET <dev> DEVNO=<num> command:
sim> SET PTR DEV=30
sim> SHOW PTR DEV
device=30
The new device number must be in the range 010..077 (octal). For devices
with two device numbers, only the lower numbered device number can be
changed; the higher is automatically set to the lower + 1. If a
device number conflict occurs, the simulator will return an error
when started.
In addition, most devices can be enabled or disabled. To enable a
device, use the SET <dev> ENABLED command:
sim> SET DP ENABLED
To disable a device, use the SET <dev> DISABLED command:
sim> SET DP DISABLED
For devices with more than one device number, disabling or enabling any
device in the set disables all the devices.
2.4 Programmed I/O Devices
2.4.1 12597A-002 Paper Tape Reader (PTR)
The paper tape reader (PTR) reads data from a disk file. The POS
register specifies the number of the next data item to be read.
Thus, by changing POS, the user can backspace or advance the reader.
The paper tape reader supports the BOOT command. BOOT PTR copies the
absolute binary loader into memory and starts it running.
The paper tape reader implements these registers:
name size comments
BUF 8 last data item processed
CMD 1 reader enable
CTL 1 device/interrupt enable
FLG 1 device ready
FBF 1 device ready buffer
POS 32 position in the input file
TIME 24 time from I/O initiation to interrupt
STOP_IOE 1 stop on I/O error
Error handling is as follows:
error STOP_IOE processed as
not attached 1 report error and stop
0 out of tape
end of file 1 report error and stop
0 out of tape or paper
OS I/O error x report error and stop
2.4.2 12597A-005 Paper Tape Punch (PTP)
The paper tape punch (PTP) writes data to a disk file. The POS
register specifies the number of the next data item to be written.
Thus, by changing POS, the user can backspace or advance the punch.
The paper tape punch implements these registers:
name size comments
BUF 8 last data item processed
CMD 1 punch enable
CTL 1 device/interrupt enable
FLG 1 device ready
FBF 1 device ready buffer
POS 32 position in the output file
TIME 24 time from I/O initiation to interrupt
STOP_IOE 1 stop on I/O error
Error handling is as follows:
error STOP_IOE processed as
not attached 1 report error and stop
0 out of tape
OS I/O error x report error and stop
2.4.3 12631C Buffered Terminal (TTY)
The console terminal has three units: keyboard (unit 0), printer
(unit 1), and punch (unit 2). The keyboard reads from the console
keyboard; the printer writes to the simulator console window. The
punch writes to a disk file. The keyboard and printer units (TTY0,
TTY1) can be set to one of three modes: UC, 7B, or 8B. In UC mode,
lower case input and output characters are automatically converted to
upper case. In 7B mode, input and output characters are masked to 7
bits. In 8B mode, characters are not modified. Changing the mode
of either unit changes both. The default mode is UC.
The console teleprinter implements these registers:
name size comments
BUF 8 last data item processed
MODE 16 mode
CTL 1 device/interrupt enable
FLG 1 device ready
FBF 1 device ready buffer
KPOS 32 number of characters input
KTIME 24 keyboard polling interval
TPOS 32 number of characters printed
TTIME 24 time from I/O initiation to interrupt
PPOS 32 position in the punch output file
STOP_IOE 1 punch stop on I/O error
Error handling for the punch is as follows:
error STOP_IOE processed as
not attached 1 report error and stop
0 out of tape
OS I/O error x report error and stop
2.4.4 12653A Printer Controller (LPS) with 2767 Printer
12566B Microcircuit Interface
The 12653A line printer uses the 12566B microcircuit interface as
its controller. As a line printer, LPS writes data to a disk file.
The POS register specifies the number of the next data item to be
written. Thus, by changing POS, the user can backspace or advance
the printer.
As a microcircuit interface, LPS provides the DMA test device for
running the dual channel port controller and DMS diagnostics. Printer
mode verus diagnostic mode is controlled by the commands:
SET LPS PRINTER configure as line printer
SET LPS DIAG configure for diagnostic tests
The 12653A is disabled by default.
The 12653A implements these registers:
name size comments
BUF 16 output buffer
STA 16 input buffer or status
CMD 1 printer enable
CTL 1 device/interrupt enable
FLG 1 device ready
FBF 1 device ready buffer
POS 32 position in the output file
CTIME 24 time between characters
PTIME 24 time for a print operation
STOP_IOE 1 stop on I/O error
In printer mode, error handling is as follows:
error STOP_IOE processed as
not attached 1 report error and stop
0 out of tape or paper
OS I/O error x report error and stop
In diagnostic mode, there are no errors; data sent to the output
buffer is looped back to the status register with a fixed delay of 1.
2.4.5 12845A Printer Controller (LPT)
The line printer (LPT) writes data to a disk file. The POS register
specifies the number of the next data item to be written. Thus,
by changing POS, the user can backspace or advance the printer.
The line printer implements these registers:
name size comments
BUF 8 last data item processed
CMD 1 printer enable
CTL 1 device/interrupt enable
FLG 1 device ready
FBF 1 device ready buffer
LCNT 7 line count within page
POS 32 position in the output file
CTIME 24 time between characters
PTIME 24 time for a print operation
STOP_IOE 1 stop on I/O error
Error handling is as follows:
error STOP_IOE processed as
not attached 1 report error and stop
0 out of tape or paper
OS I/O error x report error and stop
2.4.6 12539A/B/C Time Base Generator (CLK)
The time base generator (CLK) implements these registers:
name size comments
SEL 3 time base select
CTR 14 repeat counter for < 1Hz operation
CTL 1 device/interrupt enable
FLG 1 device ready
FBF 1 device ready buffer
ERR 1 error flag
TIME[0:7] 31 clock intervals, select = 0..7
DEVNO 6 current device number (read only)
The time base generator autocalibrates; the clock interval is adjusted
up or down so that the clock tracks actual elapsed time. Operation at
the fastest rates (100 usec, 1 msec) is not recommended.
2.4.7 12920A Terminal Multiplexor (MUXL, MUXU, MUXC)
The 12920A is a 16-line terminal multiplexor, with five additional
receive-only diagnostic lines. It consists of three devices:
MUX scanning logic (corresponding more or less
to the upper data card)
MUXL individual lines (corresponding more or
less to the lower data card)
MUXC modem control and status logic (corresponding
to the control card)
The MUX performs input and output through Telnet sessions connected to a
user-specified port. The ATTACH command to the scanning logic specifies
the port to be used:
ATTACH MUX <port> set up listening port
where port is a decimal number between 1 and 65535 that is not being used
for other TCP/IP activities.
Each line (each unit of MUXL) can be set to one of three modes: UC, 7B,
or 8B. In UC mode, lower case input and output characters are converted
automatically to upper case. In 7B mode, input and output characters
are masked to 7 bits. In 8B mode, characters are not modified. The
default mode is UC. In addition, each line supports the DATASET option.
DATASET, when set, enables modem control. The default settings are UC
mode and DATASET disabled.
The modem controls model a simplified Bell 103A dataset with just four
lines: data terminal ready and request to send from the computer to the
data set, and carrier detect and data set ready from the data set to
the computer. There is no ring detection. If data terminal ready is
set when a Telnet connection starts up, then carrier detect and data
set ready are also set. The connection is established whether data
terminal ready is set or not.
Once MUX is attached and the simulator is running, the multiplexor listens
for connections on the specified port. It assumes that the incoming
connections are Telnet connections. The connections remain open until
disconnected either by the Telnet client, a SET MUXL DISCONNECT command,
or a DETACH MUX command.
The SHOW MUX CONNECTIONS command displays the current connections to the
extra terminals. The SHOW MUX STATISTICS command displays statistics for
active connections. The SET MUX DISCONNECT=linenumber disconnects the
specified line.
The scanner (MUX) implements these registers:
name size comments
IBUF 16 input buffer, holds line status
OBUF 16 output buffer, holds channel select
The lines (MUXL) implements these registers:
name size comments
CTL 1 device/interrupt enable
FLG 1 device ready
FBF 1 device ready buffer
STA[0:20] 16 line status, lines 0-20
RPAR[0:20] 16 receive parameters, lines 0-20
XPAR[0:15] 16 transmit parameters, lines 0-15
RBUF[0:20] 8 receive buffer, lines 0-20
XBUF[0:15] 8 transmit buffer, lines 0-15
RCHP[0:20] 1 receive character present, lines 0-20
XDON[0:15] 1 transmit done, lines 0-15
TIME[0:15] 24 transmit time, lines 0-15
The modem control (MUXM) implements these registers:
name size comments
CTL 1 device/interrupt enable
FLG 1 device ready
FBF 1 device ready buffer
SCAN 1 scan enabled
CHAN 4 current line
DSO[0:15] 6 C2,C1,ES2,ES1,SS2,SS1, lines 0-15
DSI[0:15] 2 S2,S1, lines 0-15
The terminal multiplexor does not support save and restore. All open
connections are lost when the simulator shuts down or MUXU is detached.
2.4.8 Interprocessor Link (IPLI, IPLO)
The interprocessor link is a pair of 12556B parallel interfaces that
are cross coupled to provide interprocessor communications to a second
copy of the HP2100 simulator. The IPL is intended to support simulation
of a two system HP TimeShared Basic configuration. The links are actually
bidirectional half-duplex; TimeShared Basic uses them unidirectionally.
The IPL is disabled by default.
To operate, the IPL devices must be enabled and then connected to the IPL
devices in another copy of the simulator. The IPLI device in the first
simulator is connected to the IPLO device in the second, and vice versa.
Connections are established with the ATTACH command. One copy of the
simulator listens for connections on a specified port (ATTACH -L); the
other establishes connections to an IP address and port (ATTACH -C).
Either copy may perform either operation, but the operations must be
done in matched pairs:
simulator #1 simulator #2
sim> set ipli ena sim> set ipli ena
(also enables iplo) (also enables iplo)
sim> att -lw ipli 4000
Listening on port 4000
Waiting for connection
sim> att -c iplo 4000
Connection established Connected to 127.0.0.1 port 4000
sim> att -lw iplo 4000
Listening on port 4001
Waiting for connection
sim> att -c ipli 4001
Connection established Connected to 127.0.0.1 port 4000
Both forms of ATTACH take a modifier -W (wait); if specified, the command
will wait up to 30 seconds for the connection process to complete. ATTACH
-C can specify both an IP address and a port, in the form aa.bb.cc.dd:port;
if the IP address is omitted, it defaults to 127.0.0.1 (local system).
Both IPLI and IPLO implement the BOOT command. BOOT loads the HP Access
Basic Block Loader for the IOP into the top 64 words of memory and starts
it running.
Both IPLI and IPLO implement these registers:
name size comments
BUF 16 buffer
HOLD 8 holding buffer
CMD 1 device enable
CTL 1 device/interrupt enable
FLG 1 device ready
FBF 1 device ready buffer
TIME 24 polling interval for input
STOP_IOE 1 stop on I/O error
2.5 12557A Disk Controller (DPC, DPD) with 2781 Drives
13210A Disk Controller (DPC, DPD) with 7900 Drives
The 12557A/13210A disk controller can be configured as either a
12557A, supporting 2.5MB drives, or a 13210A, supporting 5MB drives,
with the commands:
SET DP 12557A 2.5MB drives
SET DP 13210A 5.0MB drives
Drive types cannot be intermixed; the controller is configured for
one type or the other. The 13210A (for 7900/7901 disks) is selected
by default.
The simulated controller has two separate devices, a data channel and
a device controller. The data channel includes a 128-word (one sector)
buffer for reads and writes. The device controller includes the four
disk drives. Disk drives can be set ONLINE or OFFLINE.
The 12557A/13210A supports the BOOT command. BOOT DP loads the IBL
for 7900 class disks into memory and starts it running. BOOT -F DP
boots from the fixed platter (head 2). The switch register (S) is
set automatically to the value expected by the IBL loader:
<15:14> = 01
<13:12> = 00
<11:6> = data channel device code
<5:1> = 00000
<0> = 1 if booting from the fixed platter
The data channel implements these registers:
name size comments
IBUF 16 input buffer
OBUF 16 output buffer
DBUF[0:127] 16 sector buffer
BPTR 7 sector buffer pointer
CMD 1 channel enable
CTL 1 interrupt enable
FLG 1 channel ready
FBF 1 channel ready buffer
XFER 1 transfer in progress flag
WVAL 1 write data valid flag
The device controller implements these registers:
name size comments
OBUF 16 output buffer
BUSY 3 busy (unit #, + 1, of active unit)
CNT 5 check record count
CMD 1 controller enable
CTL 1 interrupt enable
FLG 1 controller ready
FBF 1 controller ready buffer
EOC 1 end of cylinder pending
RARC[0:3] 8 record address register cylinder, drives 0-3
RARH[0:3] 2 record address register head, drives 0-3
RARS[0:3] 4 record address register sector, drives 0-3
STA[0:3] 16 drive status, drives 0-3
CTIME 24 data transfer command delay time
DTIME 24 data channel command delay time
STIME 24 seek delay time, per cylinder
XTIME 24 interword transfer time
Error handling is as follows:
error processed as
not attached disk not ready
end of file assume rest of disk is zero
OS I/O error report error and stop
2.6 12565A Disk Controller (DQC, DRC) with 2883 Drives
The 12565A disk controller has two separate devices, a data channel and
a device controller. The data channel includes a 128-word (one sector)
buffer for reads and writes. The device controller includes the two
disk drives. Disk drives can be set ONLINE or OFFLINE.
The 12565A supports the BOOT command. BOOT DQ loads the IBL for 2883
class disks into memory and starts it running. The switch register (S)
is set automatically to the value expected by the IBL loader:
<15:14> = 01
<13:12> = 10
<11:6> = data channel device code
<5:0> = 00000
The data channel implements these registers:
name size comments
IBUF 16 input buffer
OBUF 16 output buffer
DBUF[0:127] 16 sector buffer
BPTR 7 sector buffer pointer
CMD 1 channel enable
CTL 1 interrupt enable
FLG 1 channel ready
FBF 1 channel ready buffer
XFER 1 transfer in progress flag
WVAL 1 write data valid flag
The device controller implements these registers:
name size comments
OBUF 16 output buffer
BUSY 2 busy (unit #, + 1, of active unit)
CNT 9 check record count
CMD 1 controller enable
CTL 1 interrupt enable
FLG 1 controller ready
FBF 1 controller ready buffer
RARC[0:1] 8 record address register cylinder, drives 0-1
RARH[0:1] 5 record address register head, drives 0-1
RARS[0:1] 5 record address register sector, drives 0-1
STA[0:1] 16 drive status, drives 0-3
CTIME 24 data transfer command delay time
DTIME 24 data channel command delay time
STIME 24 seek delay time, per cylinder
XTIME 24 interword transfer time
Error handling is as follows:
error processed as
not attached disk not ready
end of file assume rest of disk is zero
OS I/O error report error and stop
2.7 12606B Fixed Head Disk Controller (DRC, DRD) with 2770/2771 Disk
12610B Drum Controller (DRC, DRD) with 2773/2774/2775 Drum
The 12606B/12610B fixed head disk/drum controller has two separate devices,
a data channel and a device controller. The device controller includes the
actual drive. Ten different models are supported:
SET DRC 180K 12606B, 180K words
SET DRC 360K 12606B, 360K words
SET DRC 720K 12606B, 720K words
SET DRC 384K 12610B, 84K words
SET DRC 512K 12610B, 512K words
SET DRC 640K 12610B, 640K words
SET DRC 768K 12610B, 768K words
SET DRC 896K 12610B, 896K words
SET DRC 1024K 12610B, 1024K words
SET DRC 1536K 12610B, 1536K words
The 12606B/12610B support the BOOT command. The BOOT command loads the
first sector from the disk or drum into locations 0-77 and then jumps to 77.
This is very different from the IBL loader protocol used by the 12565A and
the 12557A/13210A.
The data channel implements these registers:
name size comments
IBUF 16 input buffer
OBUF 16 output buffer
CMD 1 channel enable
CTL 1 interrupt enable
FLG 1 channel ready
FBF 1 channel ready buffer
BPTR 6 sector buffer pointer
The device controller implements these registers:
name size comments
CW 16 command word
STA 16 status
CMD 1 controller enable
CTL 1 interrupt enable
FLG 1 controller ready
FBF 1 controller ready buffer
TIME 24 interword transfer time
STOP_IOE 1 stop on I/O error
Error handling is as follows:
error processed as
not attached disk not ready
12606B/12610B data files are buffered in memory; therefore, end of file
and OS I/O errors cannot occur.
2.8 12559C Magnetic Tape Controller (MTC, MTD) with 3030 Drive
Magnetic tape options include the ability to make the unit write enabled
or write locked.
SET MTC LOCKED set unit write locked
SET MTC WRITEENABLED set unit write enabled
The 12559C mag tape drive has two separate devices, a data channel and
a device controller. The data channel includes a maximum record sized
buffer for reads and writes. The device controller includes the tape
unit.
The BOOT command is not supported. The 12559C was HP's earliest tape
drive and is not supported by most of its operating systems. It is
disabled by default.
The data channel implements these registers:
name size comments
FLG 1 channel ready
DBUF[0:65535] 8 transfer buffer
BPTR 16 buffer pointer (reads and writes)
BMAX 16 buffer size (writes)
The device controller implements these registers:
name size comments
FNC 8 current function
STA 9 tape status
BUF 8 buffer
CTL 1 interrupt enabled
FLG 1 controller ready
FBF 1 controller ready buffer
DTF 1 data transfer flop
FSVC 1 first service flop
POS 32 magtape position
CTIME 24 command delay time
XTIME 24 interword transfer delay time
STOP_IOE 1 stop on I/O error
Error handling is as follows:
error processed as
not attached tape not ready; if STOP_IOE, stop
end of file parity error
OS I/O error parity error; if STOP_IOE, stop
2.9 13181A Magnetic Tape Controller (MSC, MSD) with 7970B Drives
18183A Magnetic Tape Controller (MSC, MSD) with 7970E Drives
Magnetic tape options include the ability to make the unit write enabled
or write locked, and the ability to select the 13181A (800 bpi) controller
or the 13183A (1600 bpi) controller.
SET MTn LOCKED set unit n write locked
SET MTn WRITEENABLED set unit n write enabled
SET MT 13181A set controller to 13181A
SET MT 13183A set controller to 13183A
The 13181A/13183A mag tape drive has two separate devices, a data channel
and a device controller. The data channel includes a maximum record
sized buffer for reads and writes. The device controller includes the
tape units.
The 13181A/13183A supports the BOOT command. BOOT MS loads the IBL for
7970B/E magnetic tape drives into memory and starts it running. BOOT -S
MS causes the loader to space forward the number of files specified in
the A register before starting to load data. The switch register (S) is
set automatically to the value expected by the IBL loader:
<15:14> = 10
<13:12> = 00
<11:6> = data channel device code
<5:1> = 00000
<0> = 1 if space forward before loading
The data channel implements these registers:
name size comments
BUF 16 data buffer
CTL 1 interrupt enabled
FLG 1 channel ready
FBF 1 channel ready buffer
DBUF[0:65535] 8 transfer buffer
BPTR 17 buffer pointer (reads and writes)
BMAX 17 buffer size (writes)
The device controller implements these registers:
name size comments
STA 12 tape status
BUF 16 buffer
USEL 2 currently selected unit
FSVC 1 first service flop
CTL 1 interrupt enabled
FLG 1 controller ready
FBF 1 controller ready buffer
POS[0:3] 32 magtape position
CTIME 24 command delay time
XTIME 24 interword transfer delay time
STOP_IOE 1 stop on I/O error
Error handling is as follows:
error processed as
not attached tape not ready; if STOP_IOE, stop
end of file parity error
OS I/O error parity error; if STOP_IOE, stop
2.10 Symbolic Display and Input
The HP2100 simulator implements symbolic display and input. Display is
controlled by command line switches:
-a display as ASCII character
-c display as two character string
-m display instruction mnemonics
Input parsing is controlled by the first character typed in or by command
line switches:
' or -a ASCII character
" or -c two character sixbit string
alphabetic instruction mnemonic
numeric octal number
Instruction input uses standard HP2100 assembler syntax. There are seven
instruction classes: memory reference, I/O, shift, alter skip, extended
shift, extended memory reference, extended two address reference.
Memory reference instructions have the format
memref {C/Z} address{,I}
where I signifies indirect, C a current page reference, and Z a zero page
reference. The address is an octal number in the range 0 - 077777; if C or
Z is specified, the address is a page offset in the range 0 - 01777. Normally,
C is not needed; the simulator figures out from the address what mode to use.
However, when referencing memory outside the CPU (eg, disks), there is no
valid PC, and C must be used to specify current page addressing.
IOT instructions have the format
io device{,C}
where C signifies that the device flag is to be cleared. The device is an
octal number in the range 0 - 77.
Shift and alter/skip instructions have the format
sub-op sub-op sub-op...
The simulator checks that the combination of sub-opcodes is legal.
Extended shift instructions have the format
extshift count
where count is an octal number in the range 1 - 020.
Extended memory reference instructions have the format
extmemref address{,I}
where I signifies indirect addressing. The address is an octal number in
the range 0 - 077777.
Extended two address instructions have the format
ext2addr addr1{,I},addr2{,I}
where I signifies indirect addressing. Both address 1 and address 2 are
octal numbers in the range 0 - 077777.